Indonesia haze causes sky to turn blood red

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Skies over an Indonesian province turned red over the weekend, thanks to the widespread forest fires which have plagued huge parts of the country.

 

 

One resident in Jambi province, who captured pictures of the sky, said the haze had “hurt her eyes and throat”.

 

Every year, fires in Indonesia create a smoky haze that can end up blanketing the entire South East Asian region.

 

A meteorology expert told the BBC the unusual sky was caused by a phenomenon known as Rayleigh scattering.

 

Eka Wulandari, from the Mekar Sari village in Jambi province, captured the blood-red skies in a series of photos taken at around midday on Saturday.

 

The haze conditions had been especially “thick that [day]”, she said.

 

The 21-year-old posted the pictures on Facebook. They have since been shared more than 34,000 times.

 

But she told BBC Indonesian that many online had doubted whether or not the photos were real.

 

“But it’s true. [It’s a] real photo and video that I took with my phone,” she said, adding that haze conditions remained severe on Monday.

 

Another Twitter user posted a video showing similarly coloured skies.

 

“This is not Mars. This is Jambi,” said user Zuni Shofi Yatun Nisa. “We humans need clean air, not smoke.”

 

 

 

 

Indonesia meteorological agency BMKG said satellite imagery revealed numerous hot spots and “thick smoke distribution” in the area around the Jambi region.

 

Professor Koh Tieh Yong, of the Singapore University of Social Sciences, explained that this phenomenon, known as Rayleigh scattering, has to do with certain types of particles that are present during a period of haze.

 

“In the smoke haze, the most abundant particles are around 1 micrometre in size, but these particles do not change the colour of the light we see,” he told the BBC.

 

“There are also smaller particles, around 0.05 micrometres or less, that don’t make up a lot of the haze but are still somewhat more abundant during a haze period [than a normal non-haze period]… but this is enough to give an extra tendency to scatter red light more in the forward and

backward directions than blue light – and that is why would you see more red than blue.”

 

He said the fact the photos were taken around noon could have caused the sky to appear more red.

 

“If the sun is overhead and you look up, [you will be looking] in the line of the sun, so it would appear that more of the sky is red.”

 

Prof Koh added that this phenomenon would not “modify the air temperature”.